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Heart Muscle Regeneration

$1,290,338R44FY2025HLNIH

Jaan Biotherapeutics, Inc., San Diego CA

Investigators

Abstract

PROJECT SUMMARY Ischemic heart disease (IHD) is the largest cause of death of humans. IHD can be caused by a myocardial infarction (MI), which limits coronary blood flow to the heart, causing ischemia and irreversible death of cardiomyocytes (CMs). The size of a myocardial infarct correlates with the degree of deterioration of heart function, compromise of contractile reserve, and the likelihood of mortality from heart failure (HF). Prompt restoration of arterial perfusion with thrombolytic and antiplatelet therapy during percutaneous coronary intervention (PCI) has decreased acute mortality from MI. However, prevalence of HF among survivors has augmented due to irreversible CM death results in a residual inducible ischemia and permanent scarring. A major pathologic problem is the failure of human adult CMs to regenerate themselves endogenously following a MI. This is compounded by a lack of adjunctive treatments, pharmacologic or cellular, that can be administered in conjunction with reperfusion (Rep) to stimulate regeneration of heart muscle and prevent the transition to HF. The effective promotion of endogenous CM regeneration in the ischemic heart would potentially offer a powerful new treatment for MI and its adverse pathophysiologic consequences. Inhibition of four specific MicroRNAs (miRs); miR-99, miR-100, let-7a and let-7c, critically regulates CM dedifferentiation, proliferation and redifferentiation in mammals. JBT has designed an adeno associated human viral delivered therapeutic known as JBT-miR2-ADD, which allows for temporal, cardiac and non-integrative expression of inhibitors to these four miRs. As part of pilot studies, five, four-month-old Yucatan female pigs were administered with an intracoronary (IC) infusion of JBT-miR2-ADD or Control virus at Rep after a 60-min occlusion of the left coronary artery followed by a second intravenous (IV) injection at 8-weeks with necropsy at 10-weeks. Compared to Control, JBT-miR2- ADD increased left ventricular (LV) mass and ejection fraction and reduced LV scar tissue. Unlike other cardiac muscle repairing therapeutics that have not been commercialized, JBT-miR2-ADD had no safety issues including cardiac hypertrophy, arrhythmogenesis, sudden cardiac death, cardiomegaly, hyperplasia, liver or kidney toxicity in swine and extensive murine studies. Although JBT-miR2-ADD administered by IV or IC is safe and effective in animals, the IV route is more amenable to patients who cannot undergo PCI. [The Specific Aims of this Phase II SBIR grant are to Aim 1- to confirm the effective dosing strategy (i.e. single dose at Rep, or 8-weeks post-IR, or two doses at Rep and 8-weeks post-IR) to attain the required statistical improvement in efficacy] and Aim 2- to assess the safety of JBT-miR2-ADD in both male and female Yucatan swine with IR injury. The animals will be followed to 4-months post IR. Aim 3 will evaluate the pharmacokinetics and anti-viral neutralizing antibody production to JBT-miR2-ADD. Aim 4 is to conduct a nine-month Good Laboratory Practice (GLP) long-term safety study of JBT-miR2-ADD in uninjured swine. For Aim 5 a study report and a pre-Investigational New Drug meeting will be conducted with the FDA to determine the to determine the studies required to file an IND.

View original record on NIH RePORTER →